A container holds 3 gases: oxygen, carbon dioxide, and helium. The partial pressure of the three gases are 2.00atm, 3.00atm, and 4.00atm, respectively. What is the total pressure inside the container?
Dalton's Law tells us that the total pressure is the sum of the partial pressures of individual gases.
9.00 atm
To find the total pressure inside the container, we need to add up the partial pressures of the three gases.
Partial pressure is the pressure that each gas would exert if it occupied the container alone.
Given:
Partial pressure of oxygen (O₂) = 2.00 atm
Partial pressure of carbon dioxide (CO₂) = 3.00 atm
Partial pressure of helium (He) = 4.00 atm
To find the total pressure, we simply add the partial pressures:
Total pressure = Partial pressure of oxygen + Partial pressure of carbon dioxide + Partial pressure of helium
Total pressure = 2.00 atm + 3.00 atm + 4.00 atm
Total pressure = 9.00 atm
Therefore, the total pressure inside the container is 9.00 atm.
To find the total pressure inside the container, you need to sum up the partial pressures of the three gases.
In this case, the partial pressures of oxygen, carbon dioxide, and helium are given as 2.00 atm, 3.00 atm, and 4.00 atm, respectively.
To find the total pressure, you simply add these partial pressures together:
Total pressure = 2.00 atm + 3.00 atm + 4.00 atm
Calculating this sum, we get:
Total pressure = 9.00 atm
Therefore, the total pressure inside the container is 9.00 atm.